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DSP56800E Family
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
56858 Features
40KW
Prog RAM
24KW
Data RAM
1KW Boot
ROM
External
Memory I/F
6 CH
DMA
ESSI0
56800E Core
120 MIPS
120 MHz
ESSI1
2-SCI
SPI
8-bit Host I/F
•
120 MIPS at 120 MHz
•
40K x 16-bit Program RAM
•
24K x 16-bit Data RAM
•
1K x 16-bit Boot ROM
•
21 External Memory Address lines, 16 data lines
and four chip selects
•
Six (6) independent channels of DMA
•
Two (2) Enhanced Synchronous Serial Interfaces
(ESSI)
•
Serial Port Interface (SPI)
•
Two (2), Serial Communication Interfaces (SCI)
•
8-bit Parallel Host Interface
•
General Purpose 16-bit Quad Timer
•
JTAG/Enhanced On-Chip Emulation (EOnCE) for
unobtrusive, real-time debugging
•
Computer Operating Properly (COP)-Timer
•
Time of Day
•
144 LQFP and MBGA packages
•
Up to 47 GPIO
Quad Timer
COP
TOD
JTAG/EOnCE
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
Watchdog
Packaging
 DSP56858 comes in two packages
 144 pin LQFP (low Profile Quad Flat Oackage)
 144 pin MAPBGA (Mold Array Process-Ball Grid
Array)
LQFP
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
MAPBGA
Introduction to 5685x Series
Tuesday, May 23, 2017
DSP56858 Block Diagram
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
DSP56858 Pins
Some Ports have dual
Function:
•Can be programmed to
act as a General Purpose
I/O (GPIO) or
•A hardwired specific
function (i.e: ESSI, HPI,
SCI…etc.
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
DSP56858 Memory Map
Three Address Busses:
 Program memory Address Bus (PAB) – 24 bit
 Primary Data Address Bus (XAB1) – 21bit
 Secondary Data Address Bus (XAB2) – 21 bit
Data Buses
• Data transfers inside the chip occur over the
following buses:
 Two unidirectional 32-bit buses:
 Core Data Bus for Reads (CDBR)
 Core Data Bus for Writes (CDBW)
 Two unidirectional 16-bit buses:
 Secondary X Data Bus (XDB2)
 Program Data Bus (PDB)
 IPBus interface
A 64-word block is allocated in data memory for memory-mapped peripherals registers and can be
located anywhere in data memory. The top 12 locations of this block are reserved for use by the
DSP core. The I/O short address mode X:<<pp can be used.
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
GPIO Programming Example –Port D
• 0 = GPIO mode; pin operation is
controlled by GPIO registers
• 1 = Normal mode; pin operation is
controlled by peripheral module
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
GPIO Programming Example –Port D
• 0 = Pin is an input; pull-ups are dependent
on value of PUR registers (default)
• 1 = Pin is an output; pull-ups are disabled
These bits control the output
data when in GPIO mode.
• 0 = Pull ups disabled for inputs
• 1 = Pull ups enabled for inputs (default)
Pull ups are automatically disabled for outputs in both modes.
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
Interrupt Controller (ITCN)
 The interrupt controller module is used to
arbitrate amongst the various interrupt request
and to signal to DSP core when an interrupt of
sufficient priority exists and what address to
jump to in order to service this interrupt
 The interrupt controller module performs:
 Assign priority level for each interrupt request
 Manage two fast interrupts
 Notify DSP core to restart clocks out of WAIT and
STOP mode
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
Standard Interrupt Arbitration
Interrupt Request
Vector Table Address
New Interrupt Priority Level
I1 Interrupt
I0 Mask Bit
Interrupt Arbiter
Priority
Level 2
Arbiter
Illegal
Instruction
SWI #3
HWS
Overflow
Priority
Level 3
Arbiter
SWI #2
Priority
Level 1
Arbiter
SWI #1
Priority
Level 0
Arbiter
SWILP
Instruction
Lowest
Priority
SWI #0
Misaligned
Data Access
If Priority level select
Bits is set to 00, the
interrupt is disabled
Interrupt
Controller
...
Priority
Level
Select
Bits
Priority
Level
Select
Bits
BKPT_U0
Priority
Level
Select
Bits
TPBUF
Priority
Level
Select
Bits
IRQB
IRQA
EOnCE Interrupt Sources
Peripheral Interrupt Sources
•EOnCE Interrupt Sources can be assigned to priority level 3, 2, and 1.
•Peripheral Interrupt sources can be assigned to priority level 2, 1, and 0.
•Any interrupt sources can interrupt Lowest-Priority Software Interrupt (SWILP interrupt).
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
...
Priority
Level
Select
Bits
Introduction to 5685x Series
Tuesday, May 23, 2017
SCI1_RCV
5685x External Memory Interface
Features:

Access up to 2M words of program and 2M words of data memory

Four Programmable Chip Select Logic

Glue-less interface to ROM, EPROM, Flash EPROM and SRAM etc.

16-bit data bus

21-bit address bus (24-bit max for 56800E core)

Support devices with access times up to 250ns.
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
Host Interface (1/2)
Interrupt Vector Register
Command Vector Register
HD[0:7]
Interface Control Register
Host Status Register
Interface Status Register
Host Control Register
HACK/HRRQ
HDS/HWRS
HCS
HA[0:2]
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Receive High Register (RXH)
Receive Low Register (RXL)
Transmit High Register (TXH)
Transmit Low Register (TXL)
8
16
8
Host Transmit Register (HTX)
8
16
8
Host Receive Register (HRX)
Address Decode
Introduction to 5685x Series
Tuesday, May 23, 2017
DSP INTERNAL BUS
HRW/HRDS
HOST INTERFACE BUS
HREQ/HTRQ
Host Interface (2/2)



Byte-wide, full-duplex, double buffered, parallel port
Operate asynchronously to the DSP core clock
Data transfers are manageable

The host side registers are accessible to the external host processor

The DSP side registers are accessible to the DSP core
DSP Side.
 Registers are directly mapped into four X data
memory locations.
 16-bit data wide
 Transfer mode
 DSP to host
 Host to DSP
 Host Command
 Handshaking protocol
 Software Polled
 Interrupt driven
 DMA accesses
 Instructions
 Memory-mapped registers allow the
standard MOVE instruction to be used
 Bit manipulation instructions simplify I/O
service routines
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Host Side.
 16 signal pins are provided to support nonmultiplexed data bus
 8-bit data wide
 Transfer mode
 DSP to Host: 8-bit or 16-bit
 Host to DSP: 8-bit or 16 bit
 Host Command
 Handshaking protocols
 Software Polled
 Interrupt driven
 DMA accesses
 Separate interrupt lines for each interrupt source
 Special host commands force the host command
associated DSP core interrupts under host
processor control, which are useful for:
 Real-time production diagnostics
 Debugging window for program
development
Introduction to 5685x Series
Tuesday, May 23, 2017
Enhanced Synchronous Serial Interface (ESSI)
 Independent (asynchronous) or shared (synchronous) transmit and receive
sections with separate or shared internal/external clocks and frame syncs
 Normal mode operation using frame sync
 Network mode operation allowing multiple devices to share the port with as
many as thirty-two time slots
 Network mode enhancements
Time slot mask registers (receive and transmit)
End of Frame Interrupt
 Gated Clock mode operation requiring no frame sync
 Programmable internal clock divider
 Programmable word length (8,10,12, or 16 bits)
 Program options for frame sync and clock generation
 ESSI power down feature
 Completely separate clock and frame sync selections for receive and
transmit sections
 Audio enhancements
 Three transmitters per ESSI (allowing 6 channel surround sound)
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
SCI: Serial Communications Interface
 Asynchronous communications: UART
 Full duplex or single wire operation
 Standard mark/space non-return-to-zero (NRZ) format
 13-bit baud rate selection
 Programmable 8-bit or 9-bit data format
 Separately enable transmitter and receiver
 Separate receiver and transmitter CPU interrupt requests
 Programmable polarity for transmitter and receiver
DSP
 Two receiver wakeup methods: idle line or address mark
56854
 Interrupt-driven operation with seven flags
SCI/UART
 Receiver framing error detection
 Hardware parity checking
RS232
 1/16 bit-time noise detection
SCI/UART
DSP
56858
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
RS232
SCI/UART
PC
Computer
Modem
SPI: Serial Peripheral Interface
 Full-Duplex Operation
 Master and Slave Modes
 Double-Buffered Operation With Separate Transmit and Receive
Registers
 Programmable Length Transmissions
 Programmable Transmit and Receive Shift Order
 Four Master Mode Frequencies
 Maximum Slave Mode Frequency = Bus Frequency
 Clock Ground for Reduced Radio Frequency (RF) Interference
 Serial Clock with Programmable Polarity and Phase
 Two Separately Enabled Interrupts for Receiver Full and Transmitter
Empty
 Mode Fault and Overflow Error Flag With DSP Interrupt Capability
DSP
SPI
56858
Serial Memory
Device
DSP
SPI
56858
Motorola DSP
or MCU
Serial Host Interface
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
Timers / Counters
 Quad General purpose 16-bit Timers
 Individually programmable
 Count Up/Down
 Programmable count Modulo
 Count once or repeatedly
 Counters are preloadable
 Input capture & Output compare
 Max count rate = IP Bus Clock divided by 2 for external clocks
 Max count rate = IP Bus Clock for internal clocks
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
Six Channel DMA Controller
 Six independent, functionally equivalent DMA controllers
 Allows transfers from peripheral to data memory or from data memory to peripheral
 DMA transfers are supported by ESSI0, ESSI1, SPI, SCI, and HI
 Each peripheral can generate independent DMA request for transmit and receive,
creating 10 possible DMA channels (transmit and receive for five peripherals)
 DMA controllers can be programmed to support any one of possible DMA channels
 Contains configuration register set for specifying source and destination address of
transfer and type of address update
 Supports three types of address update:
No update
Increment
Increment modulo
 DMA controller supports configurable block size and maintains word count
 DMA controller can be configured to generate core interrupt, terminate transfers, or
do both after block has been transferred
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
Computer Operating (COP) Properly Timer
 Used to help software recover from runaway code
 Free running counter designed to generate a chip
wide reset on overflow
 Software must periodically service COP to clear
the counter and prevent a reset under normal
conditions
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017
Power On Rest (POR)
Features:
Peripheral
Power
2.45+0.05V
Analog
Ground
+
The Circuit monitors both the core
power supply and peripheral power
supply
Voltage
Level
Shifter
Voltage
Reference
Reset
Core
Power
+
1.35+0.05V
-
Digital
Ground
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Voltage
Level
Shifter
Holds a wide chip reset once either of
these supply voltages are below the
thresholds
Generate the address of reset vector
provided to the core after exit Reset
 The address of reset vector (same as
the COP Reset) is located at $1F0000
for 5685x devices
Introduction to 5685x Series
Tuesday, May 23, 2017
Time of Day (TOD) Timer







Implemented as a sequence of counters to track elapsed time up to 65,536
days. The starting day is determined by application software
Separate counters for seconds, minutes, hours and days
Time can be read any time
Alarm interrupt with independent enable, capturing a designated time
Module reset only at power-on, unaffected by reset pin, software reset or
COP reset
Capable to generate interrupt, pulling the device out of power saving mode
A 16-bit Clock Scaler Register associated with 7-bit prescaler allows wide
input clock range: 0 ~ 65536*128 Hz
Ira Fulton School of Engineering
Electrical Department
EEE408 – Real Time DSP
Introduction to 5685x Series
Tuesday, May 23, 2017